SU1107324A1 - Device for recovering reference coherent signal when double phase-shift keying - Google Patents

Abstract

A DEVICE FOR RESTORING A SUPPORT COHERENT SIGNAL WITH TWO-PHASE MANIPULATION containing an input amplifier-limiter, to the output of which are connected the first and second channels, each of which consists of a series-connected synchronous detector, a channel amplifier-limiting device and a multiplier, with this to another input, a different receiver, another adapter, and a different input of a separate headphone and a multiplier will be connected to a different input terminal. a narrowband filter is connected directly to the channel, and a narrowband filter is connected to another input of the synchronous detector of the second channel through 90 phases Allower, characterized in that, in order to increase the accuracy in expanding the operating frequency band, a subtractor is connected between the input of the input limit amplifier and another input of the first channel multiplier, between the output of the first channel multiplier and the input (A narrowband filter, the amplifier has a limiter, between the multiplier output The second channel and the other subtractor input switch on the band-pass filter, and the other input of the multiplier of the second channel is connected to the output 90® of the phase shifter.

Description

The invention relates to telecommunications and can be used in demodulators of double phase shift keying, synchronous detection of a received signal and recovery of a carrier frequency signal necessary for demodulation. A device for recovering a reference coherent signal is known, which contains in-phase and quadrature reception channels, each of which has a synchronous detector and a multiplier, and a received signal is fed to one of the inputs of each of the multipliers and synchronous detectors. The output of the synchronous detector of this channel is connected via a DC limiting amplifier to another input of the multiplier of the same channel. The outputs of the multipliers of one channel directly, and the other through the first wide-band phase shifter at 90 ° are combined by an adder. The output of the adder through a band-pass filter and a second phase shifter on the A5 is connected to another input of the synchronous detector of the in-phase channel. In addition, the output of the second phase shifter is connected to the other input of the quadrature channel synchronous detector through a third 90® phase shifter. Each of the synchronous detectors consists of series-connected multipliers and a low-pass filter. Information from the in-phase and quadrature channels is removed from the outputs of the DC limiting amplifiers, and from the output of the bandpass filter the carrier frequency signal is difficult, as it contains wideband phase shifters 90, the realization of which is a difficult technical problem. The closest in technical essence to the present invention is a device for recovering a reference coherent signal during double phase manipulation, containing an input amplifier-limiter, the output of which is connected to the first and second channels, each of which consists of a series-connected synchronous detector, channel amplifier limiter and multiplier, while not 242 indirectly narrowband filter is connected to another input of the synchronous detector of the first channel, but to another input of the synchronous detector ra second channel narrow band filter 90 is connected via phase shifter r21. However, the known device does not have sufficient accuracy in expanding the operating frequency band, since it contains a wideband phase shifter by 90 °, which is a frequency-dependent angle. The purpose of the invention is to increase the accuracy when expanding the working frequency band. To achieve this goal in a device for restoring a reference coherent signal with double phase manipulation, containing an input amplifier-limiter, to the output of which are connected the first and second channels, each of which consists of a series-connected synchronous detector, channel amplifier-limiter and multiplier, A narrowband filter is directly connected to another input of the synchronous detector of the first channel, and a narrowband filter is connected to another input of the synchronous detector of the second channel The filter is connected through the phase shifter 90, a subtractor is connected between the input of the limiting input amplifier and another input of the multiplier, the limiter amplifier is switched on between the output of the first channel multiplier and the narrowband filter input, and the other is connected the input of the multiplier of the second channel is connected to the output 90 of the phase shifter. The drawing shows a structural electrical circuit of a device for recovering a reference coherent signal during double phase manipulation. The device contains an input amplifier-limiter 1, the first channel 2, containing a series-connected synchronous detector 3, an amplifier-limiter 4 and a multiplier 5, a second channel 6, containing a series-connected synchronous detector 7, an amplifier-limiter 8 and a multiplier 9, serially connected amplifier limiter 19, uekopan filter 11 and 90 phase shifter 12, as well as series-connected band-pass filter 13 and subtractor 14 Support coherent signal recovery device with two-phase oic manipulation operates as follows. The received signal, the sum total of quadrature components, each of which is manipulated in phase by ± SG / 2, is fed to an input limiting amplifier in which the parasitic amplitude modulation is eliminated and the signal with a normal amplitude is amplified. The latter is multiplied in synchronous detectors 3 and 7, respectively, by the in-phase and quadrature components of the carrier frequency oscillations. As a result of low-frequency filtering in synchronous detectors 3 and 7 and the subsequent limitation in amplifiers of x-limiters 4 and at the output of the latter, two polar sprinkles of the voltage modulating the quadrature components of the received signal take place. In the multiplier 9, phase-shift manipulation of the carrier oscillation by voltage pulses modulating the corresponding component is carried out. The band-pass filter 13 filters this modulated signal. After the algebraic addition of the input signal with the normalized amplitude and the modulated signal from the output of the polo-sow filter 13 at the output of the driver 14, a signal of a single phase shift is generated, the law of which corresponds to the law of alternation the common-mode component in multiplier 5 multiplies the manipulated signal with the video signal from the output of the limiter 4. The received signal is characterized by utstviem phase shift keying. After performing the normalization of the received signal in the amplifier-limiter 10 and its narrow-band filtering in the narrow-band filter 11, the output of the latter has a carrier signal necessary for synchronous detection in the first channel and at the output 90 of the phase shifter 12 in the second channel. Thus, in the proposed device, the demodulation of the signal with double phase shift keying and recovery of the carrier frequency is carried out without using a wideband phase shifter of the input signal by 90 °. As a result, the realization of the device is simplified, the error in the carrier frequency offset is eliminated due to 90 in a wide frequency range, which allows to increase the accuracy when extending the operating frequency range.

Claims (1)

DEVICE FOR RESTORING A REFERENCE COGER SIGNAL FOR TWO-PHASE PHASE MANIPULATION, comprising an input limiter amplifier, the output of which is connected to the first and second channels, each of which consists of a series-connected synchronous detector, a channel amplifier-limiter and a multiplier, and to the other input of the first synchronous detector the channel is connected directly to the narrow-band filter, and to the other input of the synchronous detector of the second channel, the narrow-band filter is connected through 90 ° phase rotation b, characterized in that, in order to increase accuracy when expanding the operating frequency band, a subtractor is connected between the input of the input limiter amplifier and the other input of the first channel multiplier, a limiter amplifier is connected between the output of the first channel multiplier and the input of the narrow-band filter, between the output of the second channel multiplier and a bandpass filter is included at the other input of the subtractor, and the other input of the second channel multiplier is connected to the 90 ° output of the phase shifter.